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I've decided to learn Python 3. For those that have gone before, what did you find most useful along the way and wish you'd known about sooner?

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closed as not constructive by Mat, Jeff Mercado, animuson, Josh Caswell, Bart Sep 9 '12 at 18:26

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should be community wiki – SilentGhost Nov 10 '09 at 22:25
I was just looking through my saved topics and noticed another similar post that might be of interest to other people, considering the similarity between replies from rather differently formulated questions: stackoverflow.com/questions/2573135/… – mike Feb 27 '11 at 4:57

29 Answers 29

up vote 54 down vote accepted

I learned Python back before the 1.5.2 release, so the things that were key for me back then may not be the key things today.

That being said, a crucial thing that took me a little bit to realize, but I now consider crucial: much functionality that other languages would make intrinsic is actually made available by the standard library and the built-ins.

The language itself is small and simple, but until you're familiar with the built-ins and the "core parts" of the standard library (e.g., nowadays, sys, itertools, collections, copy, ...), you'll be reinventing the wheel over and over. So, the more time you invest in getting familiar with those parts, the smoother your progress will be. Every time you have a task you want to do, that doesn't seem to be directly supported by the language, first ask yourself: what built-ins or modules in the standard library will make the task much simpler, or even do it all for me? Sometimes there won't be any, but more often than not you'll find excellent solutions by proceeding with this mindset.

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collections and itertools are fantastic. I also wish more people knew about optparse. To quote Andrew Perry, "[It's amazing] how 'import optparse' can turn a hackish Python script into something resembling a 'real' piece of software." twitter.com/pansapiens/statuses/5438320772 – gotgenes Nov 10 '09 at 20:36
Agreed. All the available functionality has the effect of making Python, for me, a very large language. I don't suppose that I'm aware of even one-tenth of the stuff that it's good to know, and I've been messing around with it since pre-2.0. The trouble is that, unlike C, even if you did want to reinvent the wheel, you don't have easy access to the bits and bytes from within the core lanuage itself, unless I've been missing something (which is quite possible). – behindthefall Nov 10 '09 at 22:36
I started with python 1.5.2. The thing that helps a lot is to sit down once a day and pick one of the std library modules and learn it. You never get board and you always find something useful. – Steven Graham Nov 10 '09 at 23:06
Wow, I've just started learning Python, and haven't yet heard of optparse. That is very cool, and incredibly useful for writing scripts. – GSto Nov 12 '09 at 15:12
Optparse is now deprecated in favor of argparse. – Mechanical snail Aug 6 '12 at 4:59
  1. I wished I didn't know Java.
  2. More functional programming. (see itertools module, list comprehension, map(), reduce() or filter())
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I never wanted to know Java either. I was forced to in college. And since I have learned about it, I dislike it even more. – Echo Nov 10 '09 at 20:45
I learned Pascal, then C, then C++ (sort of), then Java. My understanding was that explicitly typing was the way to go. Until I met Python three years ago. At first it was annoying (I was getting some errors that you usually get at compile time in static languages), but after a while it was very clear that my productivity increased something like 5 fold. Now, the reversal happened: each time I program in Java I hate it for not being Python. – Alexandru Nov 10 '09 at 21:33
What's wrong with Java? – Joshua Partogi Nov 11 '09 at 1:35
1. Lack of consistency (Arrays vs Collections?). 2. Too many layers of (more than often useless) abstractions (check IO) 3. Passing thrown exceptions (throws IOException) 4. Lack of typedefs (is inheritance equivalent?) 5. Confusing: PriorityBlockingQueue has: poll, take, remove (useless abstractions?). 6. Lack of functors and operator redefinition. I can probably enumerate a few more. – Alexandru Nov 15 '09 at 1:22
Knowing more languages is always better – Casebash May 16 '10 at 0:35

List comprehension (makes a list cleanly):

[x for x in y if x > z]

Generator expansion (same as list comprehension but doesn't evaluate until it is used):

(x for x in y if x > z)
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i'd +1 you; but first check those expressions, are you sure meant 'if y==z'?) – Javier Nov 10 '09 at 19:06
good point. fixed – Paul Tarjan Nov 10 '09 at 19:13

Two brain-cramping things. One of which doesn't apply to Python 3.

a = 095

Doesn't work. Why? The leading zero is an octal literal. The 9 is not valid in an octal literal.

def foo( bar=[] ):
    bar.append( 1 )
    return bar

Doesn't work. Why? The mutable default object gets reused.

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From personal experience, I definitely second the warning about mutable default argument values :-) – Jarret Hardie Nov 10 '09 at 19:25
FTR: It's the first one that doesn't apply to python 3. octals are represented as 0o95. Much better IMHO. – jcdyer Nov 16 '09 at 14:23
Regarding the second one: it wouldn't be a problem with a persistent (immutable) data structure. – Juliet Nov 16 '09 at 14:57
  • What enumerate is for.
  • That seq = seq.append(item) and seq = seq.sort() both set seq to None.
  • Using set to remove duplicates.
  • Pretty much everything in the itertools and collections modules.
  • How the * and ** prefixes for function arguments work.
  • How default arguments to functions work internally (i.e. what f.func_defaults is).
  • How (why, really) to design functions so that they are useful in conjunction with map and zip.
  • The role of __dict__ in classes.
  • What import actually does.
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I'm stunned at #2. :( – Michael Foukarakis Nov 11 '09 at 12:08
@Michael Foukarakis, don't be stunned. Python is adhering to the principle of command/query separation. If you get a value back, you can be confident you didn't mutate the object; if you mutate the object, you get back None. en.wikipedia.org/wiki/Command-query_separation – steveha Nov 13 '09 at 20:08
@steveha: Wow, thanks for this very helpful insight! I wonder why the Python Tutorial doesn't point that out. Or maybe it does, and I haven't found it... – Tim Pietzcker Nov 16 '09 at 14:24
@steveha, @Tim Pietzcker: With some exceptions, like dict.pop(key) (mutates and returns). – gorsky Feb 18 '10 at 17:44

Learn how to use iPython It's got Tab completion. View all the elements in your namespace with 'whos'.

After you import a module, it's easy to view the code:

>>> import os
>>> os?? # this display the actual source of the method
>>> help() # Python's interactive help. Fantastic!

Most Python modules are well documented; in theory, you could learn iPython and the rest of what you'd need to know could be learned through the same tool.

iPython also has a debug mode, pdb(). Finally, you can even use iPython as a python enabled command line. The basic UNIX commands work as %magic methods. Any commands that aren't magic command can be executed:

>>> os.system('cp file1 file2')
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That last command can be made even easier. In Ipython a leading exclamation point runs the following command in the shell. So it becomes "!cp file1 file2" – AFoglia Nov 11 '09 at 2:37
files = !find path/ -type f sets files to the list you'd expect. – intuited Jul 27 '10 at 6:01

Don't have variable names that are types. For example, don't name a variable "file" or "dict"

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or any kind of builtin. aliasing len, map, id, input and others is all too easy, and usually a bad idea. – SingleNegationElimination Jun 17 '11 at 17:50

Decorators. Writing your own is not something you might want to do right away, but knowing that @staticmethod and @classmethod are available from the beginning (and the difference between what they do) is a real plus.

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@property is also a big help. – SingleNegationElimination Jun 17 '11 at 17:47
  • using help() in the shell on any object, class or path
  • you can run import code; code.interact(local=locals()) anywhere in your code and it will start a python shell at that exact point
  • you can run python -i yourscript.py to start a shell at the end of yourscript.py
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Nice! Is there a way to drop into ipython instead? – pufferfish Nov 11 '09 at 8:54
another alternative to code is import pdb; pdb.set_trace(), which is a little kludgier to use, but gives you a powerful debugger in addition to python interpreter. – SingleNegationElimination Jun 17 '11 at 17:53

Most helpful: Dive Into Python. As a commenter points out, if you're learning Python 3, Dive Into Python 3 is more applicable.

Known about sooner: virtualenv.

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Hmm, he did say "Python 3", and I don't think virtualenv has been ported to Python 3 yet. Still +1, because it's so fantastic. Also, include the link for Dive into Python 3. diveintopython3.org – gotgenes Nov 10 '09 at 20:34
It's not virtualenv, but setuptools that needs to work with python 3. Now that virtualenv can be made to use distribute in place of setupttools, it might work just fine. – jcdyer Nov 16 '09 at 14:41

That a tuple of a single item must end with a comma, or it won't be interpreted as a tuple.

pprint() is very handy (yes, 2 p's)

reload() is useful when you're re-testing a module while making lots of rapid changes to a dependent module.

And learn as many common "idioms" as you can, otherwise you'll bang your head looking for a better way to do something, when the idiom really is regarded as the best way (e.g. ugly expressions like ' '.join(), or the answer to why there is no isInt(string) function.... the answer is you can just wrap the usage of a "possible" integer with a try: and then catch the exception if it's not a valid int. The solution works well, but it sounds like a terrible answer when you first encounter it, so you can waste a lot of time convincing yourself it really is a good approach.

Those are some things that wasted several hours of my time to determine that my first draft of some code which felt wrong, really was acceptable.

Readings from python.org:

http://wiki.python.org/moin/BeginnerErrorsWithPythonProgramming http://wiki.python.org/moin/PythonWarts

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List comprehensions, if you're coming to Python fresh (not from an earlier version).

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Closures. Clean and concise, without having to resort to using a Strategy Pattern unlike languages such as Java

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I'd be interested to know your best recommended link for this. E.g. how about this: ynniv.com/blog/2007/08/closures-in-python.html – Craig McQueen Nov 11 '09 at 0:18

If you learn from a good book, it will not only teach you the language, it will teach you the common idioms. The idioms are valuable.

For example, here is the standard idiom for initializing a class instance with a list:

class Foo(object):
    def __init__(self, lst=None):
        if lst is None:
            self.lst = []
            self.lst = lst

If you learn this as an idiom from a book, you don't have to learn the hard way why this is the standard idiom. @S.Lott already explained this one: if you try to make the default initializer be an empty list, the empty list gets evaluated just once (at compile time) and every default-initialized instance of your class gets the same list instance, which was not what was intended here.

Some idioms protect you from non-intended effects; some help you get best performance out of the language; and some are just small points of style, which help other Python fans understand your code better.

I learned out of the book Learning Python and it introduced me to some of the idioms.

Here's a web page devoted to idioms: http://python.net/~goodger/projects/pycon/2007/idiomatic/handout.html

P.S. Python code that follows the best-practice Python idioms often is called "Pythonic" code.

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I think your __init__ method's body could be written more idiomatically as self.lst = lst or []. – Will McCutchen Nov 10 '09 at 21:21
Or, depending on your intent, self.lst = list(lst) [and keep the empty array as the default]. – chrispy Nov 10 '09 at 22:06
@Will McCutchen, why do you think your way is more "idiomatic"? Only the is operator can tell exactly whether the default argument was invoked. The way I wrote it is universal: it works for classes that store an object for you, as well as classes there you are just providing a list of values. If you are just providing a list of values, your way works; but if the class is storing an instance, your way discards some provided instances and replaces them with an empty list. If I write class MyClass(list): and pass an empty instance of that, I don't want it discarded and replaced. – steveha Nov 10 '09 at 22:09
@chrispy: Your suggestion would work, but I have never seen it done that way anywhere ever. I think it is much more confusing than the standard idiom of using None. And see my answer to @Will McCutchen about classes used for storing instances; your answer would also do violence to the stored things. For example, if the user passed in an iterator, yours wouldn't store it; it would exhaust it, and store a list copy of it. My personal preference is to learn an idiom that always works, then always use the idiom, rather than doing the same thing different ways depending on circumstances. – steveha Nov 10 '09 at 22:15
@steveha I'm getting a strong sense of deja-vu here ;) – chrispy Nov 11 '09 at 11:26

I implemented plenty of recursive directory walks by hand before I learned about os.walk()

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Lambda functions


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In some ways, I wish i didn't know about lambda functions while I was learning python. In other languages, it's often convenient to pass an unnamed code object around; Most of the cases where you would want that in python can be handled without a function object (like with list comprehensions). Since lambdas can't contain arbitrary python (only a single expression) their expressive power is sort of small, too. I think the best way to learn about lambdas is after you've already mastered most other python idioms. – SingleNegationElimination Jun 17 '11 at 17:56

One of the coolest things I learned about recently was the commands module:

>>> import commands
>>> commands.getoutput('uptime')
'18:24  up 10:22, 7 users, load averages: 0.37 0.45 0.41'

It's like os.popen or os.system but without all of the DeprecationWarnings.

And let's not forget PDB (Python Debugger):

% python -m pdb poop.py
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There is no module commands in py3k. Use subprocess.getoutput('uptime') on POSIX. – J.F. Sebastian Feb 28 '11 at 23:45

Dropping into interactive mode in IPython

from IPython.Shell import IPShellEmbed
ipshell = IPShellEmbed()
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When I started with python, started out with main methods from the examples. This was because I didn't know better, after that I found this on how to create a better main method.

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I wish I'd known right off the bat how to code idiomatically in Python. You can pick up any language you like and start coding in it like it's C, Java, etc. but ideally you'll learn to code in "the spirit" of the language. Python is particularly relevant, as I think it has a definite style of its own.

While I found it a little later in my Python career than I would have liked, this excellent article wraps up many Python idioms and the little tricks that make it special. Several of the things people have mentioned in their answers so far are contained within: Code Like a Pythonista: Idiomatic Python.


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Exact Duplicate. – SurDin Nov 16 '09 at 14:28

Sequential imports overwrite:

If you import two files like this:

from foo import *
from bar import *

If both foo.py and bar.py have a function named fubar(), having imported the files this way, when you call fubar, fubar as defined in bar.py will be executed. The best way to avoid this is to do this:

import foo
import bar

and then call foo.fubar or bar.fubar. This way, you ALWAYS know which file's definition of fubar will be executed.

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Maybe a touch more advanced, but I wish I'd known that you don't use threads to take advantage of multiple cores in (C)python. You use the multiprocessing library.

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Tab completion and general readline support, including histories, even in the regular python shell.

$ cat ~/.pythonrc.py 
#!/usr/bin/env python

    import readline
except ImportError:
    print("Module readline not available.")
    import rlcompleter
    readline.parse_and_bind("tab: complete")

    import os
    histfile = os.path.join(os.environ["HOME"], ".pyhist")
    except IOError:
    import atexit
    atexit.register(readline.write_history_file, histfile)
    del os, histfile

and then add a line to your .bashrc

export PYTHONSTARTUP=~/.pythonrc.py

These two things lead to an exploratory programming style of "it looks like this library might do what I want", so then I fire up the python shell and then poke around using tab-completion and the help() command until I find what I need.

Generators and list comprehensions are more useful than you might think. Don't just ignore them.

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I do not recommend including del os. Scripts that use that module will choke. igotgenes.blogspot.com/2009/01/… – gotgenes Nov 17 '09 at 1:02
That hasn't been my experience, but I can see why you might think that. I wonder why our experiences have been different? – Peter Boothe Nov 17 '09 at 7:14

I wish I knew well a functional language. After playing a bit with Clojure, I realized that lots of Python's functional ideas are borrowed from Lisp or other functional langs

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Pretty printing:

>>> print "%s world" %('hello')
hello world

%s for string

%d for integer

%f for float

%.xf for exactly x many decimal places of a float. If the float has lesser decimals that indicated, then 0s are added

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This isn't python 3. – SurDin Nov 16 '09 at 14:29
Oops! I forgot to check this against Python 3. I'm working with 2.6. Sorry those who were misled by this – inspectorG4dget Nov 16 '09 at 23:54
This is really just string formatting. "pprint" is for pretty printing. – Roger Pate Dec 3 '09 at 4:28
When I was taught this, it was taught to me as "pretty printing". I agree with you that there is "pprint", but as for the nomenclature, this is how I was taught, which is why I called it pretty printing. Sorry if it is misleading – inspectorG4dget Dec 3 '09 at 14:38

I really like list comprehension and all other semifunctional constructs. I wish I had known those when I was in my first Python project.

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What I really liked: List comprehensions, closures (and high-order functions), tuples, lambda functions, painless bignumbers.

What I wish I had known about sooner: The fact that using Python idioms in code (e.g. list comprehensions instead of loops over lists) was faster.

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That multi-core was the future. Still love Python. It's writes a fair bit of my code for me.

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-1 Like multicore matters when you've already accepted a hundred-fold slowdown by your choice of language. – chrispy Nov 10 '09 at 22:07
100x? You sure about that? – wheaties Nov 10 '09 at 23:32
CPython can be as bad as 100x slower than compiled C code, but it's not always that bad for any problem. If you write good Python that lets the built-in features do the heavy lifting, it can be reasonably fast. And I'm looking forward to Unladen Swallow: code.google.com/p/unladen-swallow/wiki/ProjectPlan – steveha Nov 11 '09 at 0:58
That the multiprocessing library lets you take advantage of multicore hardware. – jcdyer Nov 16 '09 at 14:46
The GIL still remains a problem for Python. Using that package requires more than just having 2.6. From the Python Website: Warning Some of this package’s functionality requires a functioning shared semaphore implementation on the host operating system. Without one, the multiprocessing.synchronize module will be disabled, and attempts to import it will result in an ImportError. – wheaties Nov 16 '09 at 15:00

Functional programming tools, like all and any

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